4100/4120-Series VESDA Interface Cards Installation ...

4100/4120-Series VESDA Interface Cards Installation Instructions

© 2005-2011 SimplexGrinnell LP. All rights reserved. Specifications and other information shown were current as of publication and are subject to change without notice. Simplex and the Simplex logo are trademarks of Tyco International Ltd. and its affiliates and are used under license.

574-050Rev. J

This publication describes the installation procedure for the 4100/4120-0154 and 4100-6048 VESDA Interface modules. This document covers the following topics:

Configuring, wiring, and installing a VESDA RS-232 Interface card in a 4100/4100U/ 4100ES FACP.

Adding supervisory wiring to a VESDA power supply. This wiring is only required for VESDA power supplies, and is not required if VESDA detectors are powered by 4100 power supplies.

• Laser Focus Product Guide: This document ships with the Laser Focus. It gives instructions on installing, wiring and powering up the detector.

• Laser Compact Product Guide: This document ships with the Laser Compact. It gives

instructions on installing, wiring and powering up the detector. • Installation Sheet for VESDA LaserPlus and VESDALaserScanner: This document ships with

the Laser Plus and the Laser Scanner. It gives instructions on installing, wiring and powering up the detector.

• Reference Document - LCD Programmer Product Guide: This document is available on the

Xtralis web site and documents how to program using the LCD Programmer. The same method is used with the HLI.

• Field Wiring Diagram for 4100 Power Limited (841-731) or, • Field Wiring Diagram for Non Power Limited (841-995) • 4100ES Fire Alarm System Installation Guide (574-848)

This publication discusses the following topics:

Topic See Page #

Cautions and Warnings 2

Setting Jumpers 3

Setting Switches 4

Installing the Motherboard into 2975-91xx Back Boxes (4100) 6

Installing Motherboards into 2975-94xx Back Boxes (4100U/4100ES)

10

Installing the Daughter Card 15

Wiring 16

Adding a Power Supervision Circuit for VESDA Power Supplies 19

Programming 20

Introduction

Related Documentation

In this Publication

2

Cautions and Warnings

READ AND SAVE THESE INSTRUCTIONS- Follow the instructions in this installation manual. These instructions must be followed to avoid damage to this product and associated equipment. Product operation and reliability depend upon proper installation.

DO NOT INSTALL ANY SIMPLEX® PRODUCT THAT APPEARS DAMAGED- Upon unpacking your Simplex product, inspect the contents of the carton for shipping damage. If damage is apparent, immediately file a claim with the carrier and notify an authorized Simplex product supplier.

ELECTRICAL HAZARD - Disconnect electrical field power when making any internal adjust-ments or repairs. All repairs should be performed by a representative or authorized agent of your local Simplex product supplier.

STATIC HAZARD - Static electricity can damage components. Handle as follows:

Ground yourself before opening or installing components.

Prior to installation, keep components wrapped in anti-static material at all times.

FCC RULES AND REGULATIONS – PART 15 - This equipment has been tested and found to comply with the limits for a Class A digital device pursuant to Part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference when the equipment is operated in a commercial environment. This equipment generates, uses, and can radiate radio frequency energy and, if not installed and used in accordance with the instruction manual, may cause harmful interference to radio communications. Operation of this equipment in a residential area is likely to cause harmful interference in which case the user will be required to correct the interference at his own expense.

Cautions and Warnings

3

All jumpers on the VESDA RS-232 interface daughter card are factory preset and should not require modification. If necessary, use this section to verify that the jumpers are in the correct positions. See Table 1 and Figure 1.

Table 1. VESDA Default Jumper Settings

P5 P6 P7 P8 P9 P10 P11 P12 P13 P14

2-3 2-3 1-2 1-2 1-2 1-2 2-3 2-3 Remove Jumper 2-3

In the table above, 2-3 means you should place the jumper on pins 2 and 3, whereas a designation of 1-2 means you should place the jumper on pins 1 and 2.

Figure 1. Jumper Settings for VESDA RS-232 Interface Card

Setting Jumpers

Verifying Jumper Settings

P8

P10

P7

P9

1 3

2

Jumper

Pin

#s

P14

1 3

2 Jum

per P

in #s

P13

1 3

2 Jum

per P

in #s

Jumper Pin #s

321

P11

P12

Jumper Pin #s

321P

5P

6

Remove Jumper

4

Switch SW1 on the VESDA RS-232 interface daughter card is a bank of eight dip switches. From left to right (see Figure 2) these switches are designated as SW1-1 through SW1-8. The function of these switches is as follows: SW1-1. This switch sets the baud rate for the serial communication line running between the

VESDA RS-232 interface card and the 4100 CPU. Set this switch to ON. SW1-2 through SW1-8. These switches set the card’s address within the 4100 FACP.

(These switches must be set to the value assigned to the card by the Programmer.) Refer to Table 1 for a complete list of the switch settings for all of the possible card addresses. Move a switch to the down position to turn it ON or to the up position to turn it OFF.

FigureTag FD4-050-01

1 8765432

Figure 2. Jumper Settings for the VESDA RS-232 Interface Card

Continued on next page

Setting Switches

Switches

OFF

ON

Dip Switches 1-2 through 1-8 set the Card Address. Figure shows an Address of 3. Refer to Table 1 for switch settings.

Baud Rate Switch (SW 1-1) Must Be Set to ON

5

Setting Switches, Continued

Switches

Table 2. 4100 Daughter Card Addresses

Address SW 1-2 SW 1-3 SW 1-4 SW 1-5 SW 1-6 SW 1-7 SW 1-8 Address SW 1-2 SW 1-3 SW 1-4 SW 1-5 SW 1-6 SW 1-7 SW 1-8

1 ON ON ON ON ON ON OFF 61 ON OFF OFF OFF OFF ON OFF

2 ON ON ON ON ON OFF ON 62 ON OFF OFF OFF OFF OFF ON

3 ON ON ON ON ON OFF OFF 63 ON OFF OFF OFF OFF OFF OFF

4 ON ON ON ON OFF ON ON 64 OFF ON ON ON ON ON ON

5 ON ON ON ON OFF ON OFF 65 OFF ON ON ON ON ON OFF

6 ON ON ON ON OFF OFF ON 66 OFF ON ON ON ON OFF ON

7 ON ON ON ON OFF OFF OFF 67 OFF ON ON ON ON OFF OFF

8 ON ON ON OFF ON ON ON 68 OFF ON ON ON OFF ON ON

9 ON ON ON OFF ON ON OFF 69 OFF ON ON ON OFF ON OFF

10 ON ON ON OFF ON OFF ON 70 OFF ON ON ON OFF OFF ON

11 ON ON ON OFF ON OFF OFF 71 OFF ON ON ON OFF OFF OFF

12 ON ON ON OFF OFF ON ON 72 OFF ON ON OFF ON ON ON

13 ON ON ON OFF OFF ON OFF 73 OFF ON ON OFF ON ON OFF

14 ON ON ON OFF OFF OFF ON 74 OFF ON ON OFF ON OFF ON

15 ON ON ON OFF OFF OFF OFF 75 OFF ON ON OFF ON OFF OFF

16 ON ON OFF ON ON ON ON 76 OFF ON ON OFF OFF ON ON

17 ON ON OFF ON ON ON OFF 77 OFF ON ON OFF OFF ON OFF

18 ON ON OFF ON ON OFF ON 78 OFF ON ON OFF OFF OFF ON

19 ON ON OFF ON ON OFF OFF 79 OFF ON ON OFF OFF OFF OFF

20 ON ON OFF ON OFF ON ON 80 OFF ON OFF ON ON ON ON

21 ON ON OFF ON OFF ON OFF 81 OFF ON OFF ON ON ON OFF

22 ON ON OFF ON OFF OFF ON 82 OFF ON OFF ON ON OFF ON

23 ON ON OFF ON OFF OFF OFF 83 OFF ON OFF ON ON OFF OFF

24 ON ON OFF OFF ON ON ON 84 OFF ON OFF ON OFF ON ON

25 ON ON OFF OFF ON ON OFF 85 OFF ON OFF ON OFF ON OFF

26 ON ON OFF OFF ON OFF ON 86 OFF ON OFF ON OFF OFF ON

27 ON ON OFF OFF ON OFF OFF 87 OFF ON OFF ON OFF OFF OFF

28 ON ON OFF OFF OFF ON ON 88 OFF ON OFF OFF ON ON ON

29 ON ON OFF OFF OFF ON OFF 89 OFF ON OFF OFF ON ON OFF

30 ON ON OFF OFF OFF OFF ON 90 OFF ON OFF OFF ON OFF ON

31 ON ON OFF OFF OFF OFF OFF 91 OFF ON OFF OFF ON OFF OFF

32 ON OFF ON ON ON ON ON 92 OFF ON OFF OFF OFF ON ON

33 ON OFF ON ON ON ON OFF 93 OFF ON OFF OFF OFF ON OFF

34 ON OFF ON ON ON OFF ON 94 OFF ON OFF OFF OFF OFF ON

35 ON OFF ON ON ON OFF OFF 95 OFF ON OFF OFF OFF OFF OFF

36 ON OFF ON ON OFF ON ON 96 OFF OFF ON ON ON ON ON

37 ON OFF ON ON OFF ON OFF 97 OFF OFF ON ON ON ON OFF

38 ON OFF ON ON OFF OFF ON 98 OFF OFF ON ON ON OFF ON

39 ON OFF ON ON OFF OFF OFF 99 OFF OFF ON ON ON OFF OFF

40 ON OFF ON OFF ON ON ON 100 OFF OFF ON ON OFF ON ON

41 ON OFF ON OFF ON ON OFF 101 OFF OFF ON ON OFF ON OFF

42 ON OFF ON OFF ON OFF ON 102 OFF OFF ON ON OFF OFF ON

43 ON OFF ON OFF ON OFF OFF 103 OFF OFF ON ON OFF OFF OFF

44 ON OFF ON OFF OFF ON ON 104 OFF OFF ON OFF ON ON ON

45 ON OFF ON OFF OFF ON OFF 105 OFF OFF ON OFF ON ON OFF

46 ON OFF ON OFF OFF OFF ON 106 OFF OFF ON OFF ON OFF ON

47 ON OFF ON OFF OFF OFF OFF 107 OFF OFF ON OFF ON OFF OFF

48 ON OFF OFF ON ON ON ON 108 OFF OFF ON OFF OFF ON ON

49 ON OFF OFF ON ON ON OFF 109 OFF OFF ON OFF OFF ON OFF

50 ON OFF OFF ON ON OFF ON 110 OFF OFF ON OFF OFF OFF ON

51 ON OFF OFF ON ON OFF OFF 111 OFF OFF ON OFF OFF OFF OFF

52 ON OFF OFF ON OFF ON ON 112 OFF OFF OFF ON ON ON ON

53 ON OFF OFF ON OFF ON OFF 113 OFF OFF OFF ON ON ON OFF

54 ON OFF OFF ON OFF OFF ON 114 OFF OFF OFF ON ON OFF ON

55 ON OFF OFF ON OFF OFF OFF 115 OFF OFF OFF ON ON OFF OFF

56 ON OFF OFF OFF ON ON ON 116 OFF OFF OFF ON OFF ON ON

57 ON OFF OFF OFF ON ON OFF 117 OFF OFF OFF ON OFF ON OFF

58 ON OFF OFF OFF ON OFF ON 118 OFF OFF OFF ON OFF OFF ON

59 ON OFF OFF OFF ON OFF OFF 119 OFF OFF OFF ON OFF OFF OFF

60 ON OFF OFF OFF OFF ON ON

6

The VESDA motherboard can be mounted to either 4100 Back Boxes (PID series 2975-91xx) or 4100U/4100ES Back Boxes (PID series 2975-94xx).

The 4100/4120-0154 is used for systems with 4100 Back Boxes.

The 4100-6048 is used for systems with 4100U /4100ES Back Boxes

This section describes mounting the 4100/4120-0154 version into 4100 Back Boxes.

Use the following guidelines and instruction when installing into a master controller bay.

If the 575-274 Master Motherboard is used, it must be installed in the leftmost position of this bay. If the 575-274 Master Motherboard is not used, the CPU motherboard must be installed in the leftmost position of the bay.

The power supply must be installed in the rightmost position of the bay.

Relay cards must be installed in the slots immediately to the left of the power supply. This is necessary to allow for the proper routing of non-power limited wiring (120 VAC wiring connected to the relay card).

If used, the Class B motherboard (575-275) must be installed to the left of the relay cards. If a physical bridge is used with the Class B motherboard, it must be to the right of any motherboards using NICs. This allows for earth ground detection via the physical bridge.

Install the motherboard as described below.

1. Orient the motherboard so that the connector labeled J1 is on the right and the header labeled P1 is on the left.

2. Slide the motherboard you are installing to the left until the pins are completely inserted in the connector of a previously installed motherboard.

3. Secure the motherboard to the chassis with four torx screws.

Figure 3. Installing the Motherboard into a 4100 Master Controller Bay


Installing the Motherboard into 2975-91xx Back Boxes (4100)

Overview

Installing into a 2975-91xx Master Controller Bay

CPU or 575-274 Motherboard

Power Supply

J1

P1

The motherboard can be installed in any of these slots. If the bay has relay cards, they must be installed to the immediate left of the power supply.

7

Review the following guidelines before mounting the motherboard into a 2975-91xx Expansion Bay.

If a power supply is installed in the bay, it must be installed on the far right of the bay and any relay modules must be installed in the slots immediately to its left.

Relay cards must be installed in the rightmost possible slots. This is necessary to allow for the proper routing of non-power limited wiring (typically 120 VAC wiring), which could be connected to a relay module.

If a 4100/4120-0155 SDACT, 4100-6052 Event Reporting DACT, 4100-6053 Point Reporting DACT, or a 4100/4120-0153 CCDACT is installed in the bay, it must be installed in the far left or far right slot. Neither of these modules contains the J1 or P1 connectors, which are used to distribute power and communications to adjacent modules.

Use the following directions and Figure 4 to install a motherboard into an expansion bay.

1. Orient the motherboard with the connector labeled J1 on the right and the header labeled P1 on the left.

2. Match the connector on the previously installed motherboard with the pins on the motherboard you are installing. Slide the motherboard to the left until the pins are completely inserted in the connector of the previously installed motherboard. If you are installing the leftmost board, the pins will remain unconnected.

3. Secure the motherboard to the chassis with four torx screws.

FigureTag FD4-050-02

Figure 4. Installing the Motherboard into a 4100 Expansion Bay 4. If you are installing the leftmost motherboard, connect a 733-525 Power and Communication

Harness. Continue to the next topic to connect the harness.


Installing the Motherboard into 2975-91xx Back Boxes (4100), Continued

Installing into a 2975-91xx Expansion Bay

The motherboard can be installed in any of the eight slots. If the bay has relay cards, they must be installed on the far right of the bay.

J1

P1

8

If you need to connect a 733-525 Harness to a motherboard, refer to Figure 5 and follow these steps. Make sure to route the power and communication wiring on the left side of the bay. 1. Connect one end of the harness to a motherboard in an adjacent bay.

If the adjacent bay is a master controller bay, connect the harness to the P2 and P3 connectors of the master controller motherboard and continue to step 2.

If the adjacent bay is an expansion bay, connect the harness to the P2 and P3 connectors of the motherboard installed in the leftmost slot. (If a 4100/4120-0155 SDACT, 4100-6052 Event Reporting DACT, 4100-6053 Point Reporting DACT, or a 4100/4120-0153 CCDACT occupies the leftmost slot, connect the harness to the motherboard in the second slot from the left.) Connect the harness as follows:

a. Insert the harness connector with the blue wire into the P2 connector. Note that the P2 connector has eight pins. Insert the harness connector on either the top four pins or the bottom four pins, not in the middle.

b. Insert the harness connector with the white wire into the P3 connector. Note that the P3 connector has eight pins. Insert the harness connector on either the top four pins or the bottom four pins, not in the middle.



Connecting the 733-525 Harness

9

2. Connect the other end of the harness to the leftmost motherboard in the next bay, as described below. Make sure to route the wiring on the left side of the bay.

a. Insert the harness connector with the blue wire into the P2 connector. Note that the P2 connector has eight pins. Insert the harness connector on either the top four pins or the bottom four pins, not in the middle.

b. Insert the harness connector with the white wire into the P3 connector. Note that the P3 connector has eight pins. Insert the harness connector on either the top four pins or the bottom four pins, not in the middle.

Figure 5. Power and Communication Wiring for Motherboards (4100)



Connector with Blue Wire Goes to P2

Connector with White Wire Goes to P3

733-525 Harness 733-672 Harness

733-659 Harness

10

The VESDA motherboard can be mounted to either 4100 Back Boxes (PID series 2975-91xx) or 4100U/4100ES Back Boxes (PID series 2975-94xx).

The 4100/4120-0154 is used for systems with 4100 Back Boxes.

The 4100-6048 is used for systems with 4100U /4100ES Back Boxes

This section describes mounting the 4100-6048 version into 4100U/4100ES Back Boxes.

Up to two motherboards may be installed with the system CPU in the CPU bay. Use the following directions to mount a motherboard into a CPU bay. 1. Orient the motherboard with the connector labeled J1 on the right and the header labeled

P1 on the left.

2. Slide the motherboard to the right until the pins from P1 on the motherboard to the right are completely inserted in the motherboard’s J1 connector.

3. Attach four lockwashers and metal standoffs to the chassis, and secure the motherboard to the chassis using four #6 screws.

Figure 6. Installing the Motherboard into a 4100U/4100ES CPU Bay


Installing Motherboards into 2975-94xx Back Boxes (4100U/4100ES)

Overview

Installing into a 2975-94xx CPU Bay

P1

J1

Slide the motherboard to the right until P1 on the first motherboard connects with J1 on the next one.

CPU SPS

11

When installing 2 x 11 ½-inch motherboards in a 4100U/4100ES expansion bay, adhere to the following guidelines: Each expansion bay assembly includes a chassis, two end supports, one LED/switch frame,

and a power distribution interface (PDI) board.

An expansion bay holds up to eight 4” x 5” modules. A double-size module, such as the expansion power supply (XPS), takes up two blocks of space as shown below.

Up to seven 2” x 11 ½” motherboards can be installed in an expansion bay if no 4” x 5” modules are installed in the bay. Motherboards are mounted on top of the PDI in expansion bays. The data and power that would normally be bussed via the PDI is instead routed across the boards via ribbon cable from one board to the next.

As shown in Figure 7, motherboards can be installed alongside 4” x 5” cards, if necessary.

The leftmost slot must not contain a motherboard.

4” x 5” cards must be added from right to left.

Motherboards must be added from left to right. FigureTag FD4-050-03

No BoardsAllowed

inThis Slot

PDI

4x5 Module

Expansion PowerSupply

(XPS)

4x5 Module

I/O Wiring

I/O Wiring

I/O Wiring

410

0 O

ptio

n

410

0 O

ptio

n

410

0 O

ptio

n

Slot 1 Slot 2 Slot 3 Slot 4Position

5

Position6

Position7 & 8

Figure 7. Installing the Motherboard in a 4100U/4100ES Expansion Bay


Installing Motherboards into 2975-94xx Back Boxes (4100U/4100ES), Continued


Block E Slots 7 + 8

Block F This slot cannot contain a motherboard.

12

Use the following procedure when installing motherboards in an expansion bay. Start with the second slot from the left and fill to the right.

1. Orient the motherboard with the connector labeled J1 on the right and the header labeled P1 on the left.

2. Attach four metal threaded standoffs and lockwashers into the screw holes on the chassis.

3. Attach two grey plastic standoffs to the motherboard socket mounting screws.

4. Secure the motherboard to the standoffs using four #6 torx screws as shown in Figure 8.

Figure 8. Installing the Motherboard in a 4100U/4100ES Expansion Bay 5. If you are installing the leftmost motherboard, connect a 733-525 Power and Communication

Harness. Continue to the next topic to connect the harness.




#6 SCREWS

LOCKWASHERS

METAL STANDOFFS

SCREW HOLES

SCREW HOLES

PLASTIC STANDOFFS

13

If you need to connect a 733-525 Harness to a motherboard, refer to Figure 9 and follow these steps. Make sure to route the power and communication wiring on the left side of the bay. 1. Connect one end of the harness to a motherboard in an adjacent bay.

If the adjacent bay is a CPU bay with no additional motherboards, connect the harness to the P8 and P7 connectors of the CPU motherboard.

Insert the harness connector with the blue wire into the P8 connector. Note that the P8 connector has eight pins. Insert the harness connector on either the top four pins or the bottom four pins, not in the middle.

Insert the harness connector with the white wire into the P7 connector. Note that the P7 connector has eight pins. Insert the harness connector on either the top four pins or the bottom four pins, not in the middle.

If the adjacent bay is an expansion bay or a CPU bay with additional motherboards, connect the harness to the P2 and P3 connectors of the motherboard installed in the leftmost slot. (If a 4100/4120-0155 SDACT, 4100-6052 Event Reporting DACT, 4100-6053 Point Reporting DACT, or a 4100/4120-0153 CCDACT occupies the leftmost slot, connect the harness to the motherboard in the second slot from the left.) Connect the harness as follows:



2. Connect the other end of the harness to the leftmost motherboard in the next bay, as described below. Make sure to route the wiring on the left side of the bay.






14

Figure 9. Power and Communication Wiring for Motherboard (4100U/4100ES)



Connector with Blue Wire Goes

to P2

Connector with White Wire Goes

to P3

733-525 Harness

733-996 HARNESS

15

The daughter card inserts into the connector located in the center of the motherboard. The connector is keyed so that the daughter card fits only one way. Before installing the card, examine the slot in the motherboard and the fingers on the daughter card and note where the key is located. Note: The Figure 10 is a general-purpose illustration that applies to all daughter cards.

Figure 10. Installing the Daughter Card

Installing the Daughter Card

Installing the Daughter Card

16

All wires must be 18 AWG, minimum, twisted/shielded pair.

The Maximum wiring distance is: - 18 AWG: 150 ft. - 16 AWG: 250 ft. - 14 AWG: 400 ft. - 12 AWG: 625 ft.

All wiring is supervised.

Conductors must test free of all grounds.

All wiring must be done using copper conductors only.

If shielded wire is used,

- The metallic continuity of the shield must be maintained throughout the entire cable length.

- The entire length of the cable must have a resistance greater than 1 Megohm to earth ground.

Wires must not be run through elevator shafts.

A system ground must be provided for earth detection and lightning protection devices. This connection must comply with approved earth detection per NFPA780.

Only system wiring can be run together in the same conduit.


Wiring

General Guidelines

17

Non-power limited field wiring (AC power, batteries, City connection) must be installed

and routed in the shaded areas shown in Figure 11.

Power-limited field wiring must be installed and routed in the non-shaded areas shown in Figure 11, with the exception of City wiring.

Excess slack should be kept to a minimum inside the back box enclosure. The wiring should be neatly dressed and bundled together using the wire ties provided with the equipment. Anchor power-limited wiring to tie points, as shown in Figure 11.

Figure 11. Power-Limited Wiring

Tie the wiring located between bays to the internal wiring troughs, if applicable.

When powering remote units or switching power through relay contacts, power for these circuits must be provided by a power-limited power supply that listed for fire-protective signaling use.


Wiring, Continued

Power-Limited Guidelines

CONDUIT ENTRANCE FOR POWER-LIMITED

WIRING

POWER-LIMITED WIRING

CONDUIT ENTRANCE FOR NON-POWER LIMITED WIRING

TIE POINT (LOCATION MAY VARY)

NON-POWER LIMITED WIRING

18

Wire the 733-571 Harness as shown in Figure 12. Connect the wires to the terminals located at the top of the motherboard.

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Figure 12. VESDA Wiring

Wiring, Continued


19

Power for the VESDA detectors must be from either a VESDA-supplied, UL-Listed power supply, or a Simplex 4100 supply. The nominal voltage is 24Vdc and the maximum power is 20W. Installations where the VESDA detectors are powered by VESDA power supplies require the addition of a supervisory wiring circuit. In the event of a battery or power failure, the general purpose input (located on the detector termination card) to which this circuit connects generates a trouble message. This trouble is then routed back to the 4100 FACP as a FLOW trouble message, indicating that there is a problem with the power supply for the detector. Note: This circuit is not required if the VESDA equipment is being powered by a 4100

power supply.

24 VDC

VLPPSSUPERVISORY POWER

SUPPLY CHARGER

-OU

T +

-OU

T +

-OU

T +

NOFAULT INDICATOR

A C

A C

C NC-BAT+

POWER

+

-+-

+-

Figure 13. Power Supervision Circuit for VESDA Power Supplies

Adding a Power Supervision Circuit for VESDA Power Supplies

Overview

General Purpose Input

VESDA Termination Card

VPS-100US VESDA Power Supply

Note: All wiring must be 18 AWG or to local code.

574-050 Rev. J

Up to 30 VESDA devices can be programmed per VESDA Interface Card. Each VESDA device takes up 4 slots in the Programmer. Four slots are reserved for each VESDA unit because the Laser Scanner can have up to 4 channels ( 4 pipes, one for each channel).

Table 3 explains how to map various VESDA devices into the devices shown in the ES Panel Programmer.

Table 3. Programming VESDA devices

VESDA Device Programming

VESDA Laser Plus Program as a VE70D

VESDA Laser Focus Program as a VMIN50

VESDA Laser Compact Program as a VMIN50

VESDA Laser Scanner Program as a VSCAN

There are 3 levels of alarm for each VESDA device: Level Stage 1 Alarm Level Stage 2 Alarm Level Stage 3 Alarm All three levels can be used in Custom Control to enact various output actions.

Programming

Overview

Mapping

Alarm Levels

4100/4120-Series VESDA Interface Cards Installation ...

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